Many people, especially old and middle-aged, suffer from pain and disabilities caused by
cartilage degradation. There are many surgical methods for cartilage treatment, however …

Osteochondral (OC) repair is an extremely challenging topic due to the complex biphasic
structure and poor intrinsic regenerative capability of natural osteochondral tissue. In …

Stem cells have been sought as a promising cell source in the tissue engineering field due
to their proliferative capacity as well as differentiation potential. Biomaterials have been …

Electrospinning is currently one of the most used techniques for obtaining various types of
nanofibers. In the era of sustainable development, it is essential to utilize environmentally …

Over the decades, the management of osteochondral lesions remains a significant yet
unmet medical challenge without curative solutions to date. Owing to the complex nature of …

Nanofiber scaffolds have gained significant attention in the field of bone tissue engineering.
Electrospinning, a straightforward and efficient technique for producing nanofibers, has …

One of the established tissue engineering strategies relies on the fabrication of appropriate
materials architectures (scaffolds) that mimic the extracellular matrix (ECM) and assist the …

Abstract Graphene-containing 13-93 bioactive glass and poly (ε-caprolactone)-based
bilayer, electrically conductive scaffolds were prepared for osteochondral tissue repair …

Osteoarthritis (OA) is diagnosed in nearly 240 million people globally. It is linked with
cartilage degeneration and involves all structures of the affected joint. Current treatments …

Although guided tissue regeneration (GTR) is a useful tool for regenerating lost tissue as
bone and periodontal tissue, a biocompatible membrane capable of regenerating large …